CN110975990A

CN110975990A - Rotary drum material crusher who contains singlechip optic fibre laser lamp

Info

Publication number: CN110975990A
Application number: CN201911152912.XA
Authority: CN
Inventors: 林国盛
Original assignee: Individual
Current assignee: Shandong Heyue Nonwovens Co ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2020-04-10
Anticipated expiration: 2039-11-22
Also published as: CN110975990B; CN112844622A

Abstract

The invention discloses a rotary drum material crusher containing a singlechip optical fiber laser lamp, which structurally comprises a bottom bag box, an electric control machine, a crushing barrel and a sieve channel, wherein the electric control machine is arranged on the outer surface of the bottom bag box, the crushing barrel penetrates through the sieve channel and controls the crushing barrel to crush and rotate materials, a crushing head of the crushing barrel rotates along with a central column, the outer pushing angle is connected while rotating, a movable block connected together is forced to be pushed outwards, a separation ball and a fixed core are limited by space and drive the whole to move upwards, the crushed materials fall into the bottom bag box, when the remainder is below the crushing head, the singlechip cannot detect and stop running, the pushing ball returns to the original position, the crushing head has certain softness, the remainder automatically falls down, and the internal hard force is changed when the singlechip cannot detect that the remainder is clamped below, the rest materials can fall automatically, and the subsequent engagement degree of the rest materials is prevented from weakening.

Description

Rotary drum material crusher who contains singlechip optic fibre laser lamp

Technical Field

The invention belongs to the field of single-chip microcomputers, and particularly relates to a rotary drum material crusher with a single-chip microcomputer fiber laser lamp.

Background

When smashing plastics that have certain elasticity, through the cooperation of optic fibre laser lamp and singlechip, when detecting the material on the rotary drum, can continuously rotate, smash crowded inside back at the material, the rotary drum stall will be controlled to the singlechip.

Based on the above findings, the present inventors found that the material pulverization of the existing fiber laser lamp mainly has the following disadvantages, such as:

when the materials with certain elasticity are crushed and the excess materials are rotated below, the fiber laser and the single chip microcomputer cannot detect the materials above and certain resistance, the operation is stopped, the excess materials are clamped inside, the excess materials are easily ejected forcibly during the next operation, and even the meshing distance between the rotary drums is caused.

Therefore, a rotary drum material crusher containing a single-chip microcomputer fiber laser lamp is needed.

Disclosure of Invention

In order to solve the problems that when materials with certain elasticity are crushed and the rest materials are rotated to the lower part, the fiber laser and the single chip microcomputer cannot detect the materials above and certain resistance, the operation is stopped, the rest materials are clamped inside, the rest materials are forced to pop out easily in the next operation, and even the meshing distance between rotary drums is caused.

The invention relates to a purpose and an effect of a rotary drum material crusher containing a singlechip optical fiber laser lamp, which are achieved by the following specific technical means:

the structure of the machine comprises a bottom bag box, an electric control machine, a crushing barrel, a sieve channel and a feeding port.

The electric controller is installed on the outer surface of the bottom pocket box, the crushing barrel penetrates through the inside of the sieve channel, and the sieve channel and the feeding port are of an integrated structure.

The crushing barrel comprises a central column, a solid breaking rod, a pushing angle, a pushing ball, a fixed edge and a crushing head, wherein the solid breaking rod is installed on the outer surface of the central column, the pushing angle abuts against the inner wall of the solid breaking rod, the pushing ball is located between the solid breaking rod and the fixed edge, and the fixed edge is connected with the crushing head.

As a further improvement of the invention, the pushing ball comprises an outer expanding layer, an outer tightening core, two spacing corners, an outer soft layer, two spacing balls and a fixing core, wherein the outer expanding layer is connected with the spacing corners, the outer tightening core is arranged between the spacing corners, the spacing balls are abutted against the outer sides of the fixing core, the spacing corners are embedded in the outer soft layer, the number of the spacing corners is four, the number of the outer expanding layer is two, and the spacing balls are of a spherical structure and are uniformly distributed in a circular shape.

As a further improvement of the invention, the core-fixing and breaking rod comprises a core-fixing head, an angle-expanding opening, an extension block, a loose block, a forward sliding arc and a raised head, wherein the core-fixing head is connected with the loose block, the angle-expanding opening is embedded in the loose block, the extension block is attached to the outer surface of the loose block, the loose block is arranged between the forward sliding arc and the raised head, the forward sliding arc is of a semi-arc structure, five core-fixing heads are arranged, and the raised head is of a semi-arc structure.

As a further improvement of the invention, the pushing angle comprises a pushing head, an extension layer, a protective layer, a pushing angle and a uniform force core, wherein the uniform force core is connected with the pushing head, the extension layer is attached to the outer surface of the uniform force core, the pushing angle is embedded in the protective layer, the uniform force core is of a spherical structure, and the extension layer is of a triangular structure.

As a further improvement of the invention, the smooth arc comprises an inclined arc, inclined ejector rods, an outer attached layer and a core pressing ball, wherein the inclined arc is attached to the core pressing ball, the inclined ejector rods are embedded into the outer attached layer, the core pressing ball is of an oval structure, the number of the inclined ejector rods is two, and the inclined arc is of a semi-arc structure.

As a further improvement of the invention, the external core comprises a pressure spring layer, a pressure hook, two interfaces and a middle partition ball, wherein the pressure hook is arranged in the pressure spring layer, the interfaces are connected with the pressure spring layer, the pressure spring layer is propped against the outer surface of the middle partition ball, and the middle partition ball is of a ball body structure.

Compared with the prior art, the invention has the following beneficial effects:

the crushing barrel is controlled to crush and rotate materials, the crushing head of the crushing barrel can rotate along with the center pillar, the pushing angle on the outer side is connected while rotating, the crushing head can move along the outer side of the sliding arc by pulling the hard force of the pushing angle, the connected movable blocks can be forced to be pushed outwards, the separating ball and the solid core can be limited by space to drive the whole body to move upwards, the pressing hook of the separating ball loses resistance to drive the elastic layer to stretch and change along with the deformation of the inner part, the separating ball and the solid core play a role in protecting the separating ball, the crushed materials can fall into the bottom pocket box, when the residual materials are below the crushing head, the single chip microcomputer cannot detect and stop running, the pushing ball returns to the original position, the crushing head has certain softness, the residual materials automatically fall down, and when the single chip microcomputer cannot detect that the residual materials are stuck below, the hard force in the single chip microcomputer is changed, the rest materials can fall automatically, and the subsequent engagement degree of the rest materials is prevented from weakening.

Drawings

FIG. 1 is a schematic structural diagram of a drum material crusher with a single-chip microcomputer fiber laser lamp.

FIG. 2 is a schematic front view of the inner structure of a milling cylinder according to the present invention.

Fig. 3 is a front view of the inner structure of the push ball according to the present invention.

Fig. 4 is a schematic front view of the internal structure of the stem of the present invention.

FIG. 5 is a schematic view of an elevation view of an internal structure of a pushing angle of the present invention.

FIG. 6 is a schematic view of an elevational internal structure of a smooth arc according to the present invention.

Fig. 7 is a front view of the internal structure of the external core of the present invention.

In the figure: the device comprises a bottom pocket box-11, an electric controller-22, a crushing cylinder-33, a sieve channel-44, a feeding port-55, a center pillar-aa 1, a fixed breaking rod-aa 2, a pushing angle-aa 3, a pushing ball-aa 4, a fixed edge-aa 5, a crushing head-aa 6, an outer expanding layer-tt 01, an outer stretching core-tt 01, an angle-tt 01, an outer soft layer-tt 01, a ball separating-tt 01, a core fixing-tt 01, a core stabilizing head-01, an angle expanding port-01, a delay block-01, a loose block-01, a smooth arc-01, a convex head-01, a top moving head-g 01, a force extending layer-g 01, a sheath layer-g 01, a pushing angle-g 01, a uniform force core-g 01, a tendency arc-zz 01, a tendency ejector rod-zz 01, an outer attached layer-zz 01, a ball-z-01, a middle partition ball press hook-01, a middle partition-tt 01, a hook press interface-01, and a hook press-01.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides a rotary drum material crusher with a single-chip microcomputer fiber laser lamp, which structurally comprises a bottom bag box 11, an electric controller 22, a crushing drum 33, a sieve channel 44 and a feeding port 55.

The electric control machine 22 is installed on the outer surface of the bottom pocket box 11, the crushing barrel 33 penetrates through the inside of the sieve channel 44, and the sieve channel 44 and the feeding port 55 are of an integrated structure.

The crushing cylinder 33 comprises a center pillar aa1, an arm-breaking fixing rod aa2, a pushing angle aa3, a pushing ball aa4, a fixed edge aa5 and a crushing head aa6, wherein the arm-breaking fixing rod aa2 is mounted on the outer surface of the center pillar aa1, the pushing angle aa3 abuts against the inner wall of the arm-breaking fixing rod aa2, the pushing ball aa4 is located between the arm-breaking fixing rod aa2 and the fixed edge aa5, and the fixed edge aa5 is connected with the crushing head aa 6.

The push-press ball aa4 comprises an outer expanded layer tt01, an outer tightening core tt02, a spacing angle tt03, an outer soft layer tt04, a spacing ball tt05 and a fixed core tt06, the outer expanded layer tt01 is connected with a spacing angle tt03, the outer tightening core tt02 is installed between the spacing angles tt03, the spacing balls tt05 abut against the outer side of the fixed core tt06, the spacing angle tt03 is embedded in the outer soft layer tt04, the spacing angles tt03 are four, the outer expanded layers tt01 are two, the spacing balls tt05 are of a spherical structure and are distributed uniformly in a circular shape, the fixed core 06 controls the approximate position of the whole and a fixed force bearing point, the spacing balls tt05 enable the force bearing ends to have a certain spacing distance, the outer expanded layer tt01 expands the force bearing area of the joint part, the outer tightening core 02 is in a pressed state, and when the resistance is lost, the resistance can be expanded in time.

The fixed and wrestling rod aa2 comprises a core stabilizing head qwe1, an angular spread opening qwe2, an extension block qwe3, a loose block qwe4, a smooth arc qwe5 and a convex head qwe6, the core stabilizing head qwe1 is connected with the loose block qwe4, the angular spread opening qwe2 is embedded into the loose block qwe4, the extension block qwe3 is attached to the outer surface of the loose block qwe4, the loose block qwe4 is installed between the smooth arc qwe5 and the convex head qwe6, the smooth arc qwe5 is in a semi-arc structure, five core stabilizing heads qwe1 are provided, the convex head qwe6 is in a semi-arc structure, the convex head qwe6 limits a certain moving distance of an object which is collided with the outside, the angular spread opening qwe2 is in a pulling state when being extended at a joint part, the protective effect is achieved, the core stabilizing head qwe1 enables the joint part to be more stably stressed, and the integral force fixing surface of the extension block qwe3 is extended.

The pushing angle aa3 comprises a pushing head g01, an extension layer g02, a protective layer g03, a pushing angle g04 and a force equalizing core g05, wherein the force equalizing core g05 is connected with the pushing head g01, the extension layer g02 is attached to the outer surface of the force equalizing core g05, the pushing angle g04 is embedded into the protective layer g03, the force equalizing core g05 is of a spherical structure, the extension layer g02 is of a triangular structure, a contact point on the outermost side of the pushing head g01 pushes an external object with a certain force, the force equalizing core g05 enables the whole stress to be more uniform, one point cannot be excessively stressed, and the interior of the extension layer g02 is more stable.

The forward sliding arcs qwe5 include an inclined arc zz1, an inclined ejector pin zz2, an outer attached layer zz3 and a core pressing ball zz4, the inclined arc zz1 is attached to the core pressing ball zz4, the inclined ejector pin zz2 is embedded inside the outer attached layer zz3, the core pressing ball zz4 is of an oval structure, two inclined ejector pins zz2 are arranged, the inclined arc zz1 is of a semi-arc structure, the core pressing ball zz4 is deformed when being extruded by external force, the core pressing ball zz4 plays a role in protection, the inclined ejector pin zz2 enables force collided by the outside to have certain guidance, and the inclined arc zz1 plays a role in buffering the force extruded by the outer arc zz 3.

The outer tension core tt02 comprises a compression spring layer ee01, a compression hook ee02, an interface ee03 and a middle partition ball ee04, the compression hook ee02 is installed inside the compression spring layer ee01, the interface ee03 is connected with the compression spring layer ee01, the compression spring layer ee01 abuts against the outer surface of the middle partition ball ee04, two compression hooks ee02 are arranged, the middle partition ball ee04 is of a sphere structure, the middle partition ball ee04 fixes a roughly stressed state, the compression hook ee02 is in a compression state when stressed and can stretch out as much as possible when resistance is lost, and the compression spring layer ee01 changes along with deformation of an inner part and plays a role in protection.

The specific use mode and function of the embodiment are as follows:

in the invention, a material to be processed is placed in the sieve channel 44 through the feeding port 55, the control of the fiber laser lamp and the single chip microcomputer detects that the material is arranged above the crushing barrel 33, the crushing barrel 33 is controlled to crush and rotate the material, the crushing head aa6 of the crushing barrel can rotate along with the center pillar aa1, the pushing angle aa3 which is connected to the outer side is connected while rotating, the protecting layer g03 and the force extending layer g02 are dragged to drive the uniform force core g05 to be uniformly stressed, the pushing head g01 which is connected to the top end can push the fixed breaking rod aa2 which is collided with the uniform force core g04 according to the pulling force of the uniform force core g05, the fixed breaking rod aa2 can move along the outer side of the sliding arc qwe5, the pushing rod zz2 is inclined to give a certain direction to the certain direction, the pushing protection is carried out on the outer attached layer zz3, the pressing core ball zz4 is stressed to generate a certain deformation, the pushing head g01 can smoothly slide on the sliding arc qwe5, and the movable block qwe4 is pushed together, the movable block qwe4 and the core stabilizing head qwe1 are stretched by the angle expanding port qwe2, the raised head qwe6 moves upwards, the push ball aa4 clamped between the fixed breaking rod aa2 and the fixed edge aa5 is clamped, the ball separating tt05 and the fixed core tt06 are limited in space, the whole body is driven to move upwards, the press hook ee02 loses resistance, the elastic layer ee01 is driven to stretch, the angle separating tt03 assists in stretching, the crushing head aa6 is supported by the outer expanding layer 01, the crushed material is crushed by certain hard force, the crushed material falls into the bottom pocket box 11, when the residual material is below the position between the residual material and the crushing head aa6, the single chip microcomputer cannot detect and stops running, the push angle aa3 stops abutting against the fixed breaking rod aa2, the push ball aa4 returns to the original position, the crushing head aa6 has certain softness, and the rest of the residual material automatically falls down.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a rotary drum material rubbing crusher that contains singlechip optic fibre laser lamp, its structure includes end pocket case (11), automatically controlled machine (22), crushing barrel (33), sieve way (44), pan feeding mouth (55), its characterized in that:

the electric control machine (22) is arranged on the outer surface of the bottom pocket box (11), the crushing barrel (33) penetrates through the inside of the sieve channel (44), and the sieve channel (44) and the feeding port (55) are of an integrated structure;

the crushing barrel (33) comprises a center pillar (aa1), a solid-breaking rod (aa2), a pushing angle (aa3), a pushing ball (aa4), a fixed edge (aa5) and a crushing head (aa6), wherein the solid-breaking rod (aa2) is mounted on the outer surface of the center pillar (aa1), the pushing angle (aa3) abuts against the inner wall of the solid-breaking rod (aa2), the pushing ball (aa4) is located between the solid-breaking rod (aa2) and the fixed edge (aa5), and the fixed edge (aa5) is connected with the crushing head (aa 6).

2. The rotary drum material crusher containing the single-chip microcomputer fiber laser lamp as claimed in claim 1, wherein: the push pressing ball (aa4) comprises an outer expanding layer (tt01), an outer tightening core (tt02), a separation angle (tt03), an outer soft layer (tt04), a separation ball (tt05) and a fixed core (tt06), wherein the outer expanding layer (tt01) is connected with the separation angle (tt03), the outer tightening core (tt02) is installed between the separation angles (tt03), the separation ball (tt05) abuts against the outer side of the fixed core (tt06), and the separation angle (tt03) is embedded in the outer soft layer (tt 04).

3. The rotary drum material crusher containing the single-chip microcomputer fiber laser lamp as claimed in claim 1, wherein: the fixed and breaking rod (aa2) comprises a core stabilizing head (qwe1), an angle expanding port (qwe2), an extension block (qwe3), a loose block (qwe4), a smooth arc (qwe5) and a raised head (qwe6), wherein the core stabilizing head (qwe1) is connected with the loose block (qwe4), the angle expanding port (qwe2) is embedded into the loose block (qwe4), the extension block (qwe3) is attached to the outer surface of the loose block (qwe4), and the loose block (qwe4) is arranged between the smooth arc (qwe5) and the raised head (qwe 6).

4. The rotary drum material crusher containing the single-chip microcomputer fiber laser lamp as claimed in claim 1, wherein: the pushing angle (aa3) comprises a pushing head (g01), a force extending layer (g02), a protective layer (g03), a pushing angle (g04) and a force homogenizing core (g05), wherein the force homogenizing core (g05) is connected with the pushing head (g01), the force extending layer (g02) is attached to the outer surface of the force homogenizing core (g05), and the pushing angle (g04) is embedded into the protective layer (g 03).

5. The rotary drum material crusher containing a single chip microcomputer fiber laser lamp as claimed in claim 3, wherein: the forward sliding arc (qwe5) comprises an inclined arc (zz1), an inclined mandril (zz2), an outer attached layer (zz3) and a core pressing ball (zz4), wherein the inclined arc (zz1) is attached to the core pressing ball (zz4), and the inclined mandril (zz2) is embedded in the outer attached layer (zz 3).

6. The rotary drum material crusher containing the single-chip microcomputer fiber laser lamp as claimed in claim 2, wherein: the outer core (tt02) comprises a compression spring layer (ee01), a compression hook (ee02), an interface (ee03) and an intermediate sphere (ee04), wherein the compression hook (ee02) is installed inside the compression spring layer (ee01), the interface (ee03) is connected with the compression spring layer (ee01), and the compression spring layer (ee01) abuts against the outer surface of the intermediate sphere (ee 04).